UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine whether decreased alkaline phosphatase activity in the granules from neutrophils of patients with chronic myelogenous leukemia (CML) was due to an absence of enzyme or the production of defective enzyme, we compared the immunologic properties of granule alkaline phosphatase derived from patients with CML with that of normal subjects and patients with polycythemia vera (PRV). Antisera prepared in rabbits against granule alkaline phosphatase purified from the neutrophils of a patient with PRV produced a single precipitin line of antigenic identity when reacted with extracts of normal, PRV, and CML neutrophil granules. A histochemical stain for alkaline phosphatase activity (alpha-naphthyl acid phosphate coupled with Fast Blue RR) specifically stained the precipitin line. A variety of quantitative precipitin techniques failed to produce satisfactory precipitation of alkaline phosphatase activity. Comparative analyses were therefore performed by affinity chromatography using goat antirabbit-gammaglobulin linked to Sepharose 4B to adsorb alkaline phosphatase complexed with rabbit gamma globulin. With this method, 100% of CML, normal, and PRV alkaline phosphatase could be adsorbed. Using limiting concentrations of antibody, a proportionally smaller fraction of enzyme activity was absorbed as the concentration of PRV alkaline phosphatase or normal alkaline phosphatase was increased. Extracts of CML granules containing comparable amounts of protein but 200-fold less alkaline phosphatase activity per milligram did not specifically reduce adsorption. Thus, in CML, we found no evidence that the granulocytes contained a large amount of antigenically normal but enzymatically defective alkaline phosphatase. Examination of electron micrographs revealed no significant differences in the number or distribution of granules in the granulocytes of normal subjects or patients with PRV or CML. This suggests that the low level of neutrophil alkaline phosphatase in CML granulocytes is the result of decreased enzyme content and not a consequence of synthesis of catalytically defective enzyme.
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PMID:Neutrophil alkaline phosphatase: comparison of enzymes from normal subjects and patients with polycythemia vera and chronic myelogenous leukemia. 4 59

A fluorescein-labelled anti-human immunoglobulin was used to demonstrate that peripheral blood from patients with myelofibrosis had a high proportion of phagocytic cells containing fluorescent immune complexes. Cells from patients with other myeloproliferative diseases (either chronic myeloid leukaemia or polycythaemia rubra vera) did not show similar intracellular immune complexes. Serum from patients with myelofibrosis incubated with polymorphs from healthy subjects caused the appearance of inclusions similar to those found when the patients' own cells were used, the healthy phagocytes apparently engulfing complexes from the patients' sera. The presence of platelets or complement did not alter the incidence of intracellular fluorescence. These tests may help in the diagnosis of myelofibrosis and may also be valuable in recognising the onset of this condition in patients with polycythaemia rubra vera.
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PMID:Immune complexes in myeloproliferative disorders. 7 61

A chromosomal anomaly, 21q-, has been found in association with retroviral indicators in patients with myeloproliferative disorders (MPD) including polycythemia vera (PV), essential thrombocythemia (ET), chronic myelocytic leukemia (CML) and acute non-lymphocytic leukemia (ANLL). The viral indicators are found in platelet homogenates of thrombocythemic patients. Evidence is presented from 2 laboratories (Philadelphia, USA and Bologna, Italy) for the 21q- deletion in MPD patients. Thirty patients evaluated for the presence of both viral and chromosomal markers in Philadelphia showed positive correlations.
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PMID:Correlation of a specific chromosomal marker, 21q-, and retroviral indicators in patients with thrombocythemia. 9 52

Platelet lipoxygenase and cyclo-oxygenase pathways were investigated by the incubation of 1(-14) C-arachidonic acid with washed platelets in 33 patients with myeloproliferative disorders, including 14 patients with chronic myeloid leukemia (CML), 12 with polycythemia vera (PV), 4 with essential thrombocythemia (ET), and 3 with myelofibrosis (MF). In patients with MF and CML, mean activities of the lipoxygenase pathway were significantly lower when compared with normal controls (p less than 0.001 and p less than 0.01, respectively). When a normal range of the activity was defined as mean +/- 2 SD, all patients with MF, 8 with CML, 6 with PV, and 1 with ET showed decreased lipoxygenase activities, while activities of the cyclo-oxygenase pathway were decreased in one of each patient with CML, PV, and ET. In 4 of 10 patients with a selective lipoxygenase deficiency, platelets were aggregated by lower concentrations of arachidonic acid than those necessary to induce normal platelet aggregation. It is suggested that the lipoxygenase activity could modulate platelet functions through its effect on arachidonate metabolism by the cyclo-oxygenase pathway and that a selective lipoxygenase deficiency could offer a mechanism for hyperfunction of the platelet, which may lead to a thrombotic tendency, one of the common features of myeloproliferative disorders.
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PMID:Altered arachidonate metabolism by platelets in patients with myeloproliferative disorders. 11 95

The authors describe a coherent model for differentiated leukemias derived from physiopathological studies on Friend leukemia. In Friend leukemia, Friend virus induces permanent differentiation of erythropoietin-responsive cells. This erythropoietic proliferation and maturation is accompanied by a marked cell loss and provokes enlargement of the stem cell compartment. The so-called leukemic cells have a limited proliferation capacity and may not be truly malignant as opposed to blastic cells in acute leukemias. Clinical, hematological, and physiopathological data that are presently available in chronic granulocytic leukemia, polycythemia vera, and the erythroblastic component of erythroleukemia are compatible with the Friend physiopathological model. It is suggested that these differentiated leukemias initiate from an uncontrolled differentiation of a committed cell compartment, which stimulates proliferation of the stem cell compartment. The disease would be due to a proliferation and accumulation of "subnormal" cells characterized by a shorter mean life-span than the normal differentiated cell population. Although limited, the data available suggest that the physiopathology of acute leukemias is clearly distinguishable from that of differentiated leukemias; several immunological and therapeutic applications of this model are outlined.
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PMID:Physiopathology of human and virus-induced murine leukemias. 17 21

Three cases of myeloproliferative disorders in patients with breast cancer are described. The first patient developed acute myeloblastic leukemia 26 years after her initial breast cancer; the second patient developed chronic myelogenous leukemia three years after the diagnosis of breast cancer; the third patient had polycythemia vera for nine years before cancer of the breast was noted. The literature dealing with the association of cancer and myeloproliferative disorders is reviewed. Possible explanations for this association are considered.
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PMID:Association of breast cancer with myeloproliferative disorders. 19 48

Prostaglandin (PG) D(2) is synthesized in platelets at concentrations which could inhibit aggregation via activation of adenylate cyclase. To more directly define platelet-PG interactions, a binding assay has been developed for platelet PG receptors with [(3)H]PGD(2) as ligand. [(3)H]PGD(2) binding to intact platelets was saturable and rapid with the ligand bound by 3 min at 20 degrees C. PG competed with the [(3)H]PGD(2) binding site with a potency series: PGD(2) (IC(50) = 0.08 muM) >> PGI(2) (IC(50) = 2 muM) > PGE(1) (IC(50) = 6 muM) > PGF(2alpha) (IC(50) = 8 muM). Scatchard analysis of binding data from six normal subjects showed a single class of binding sites with a dissociation constant (K(d)) of 53 nM and 210 binding sites per platelet. This PGD(2) receptor assay was then used to study platelets from five patients with myeloproliferative disorders (polycythemia vera, essential thrombocythemia, and chronic myelogenous leukemia), as over 90% of these patients have platelets resistant to the effects of PGD(2) on aggregation and adenylate cyclase activity (1978. Blood.52: 618-626.). In the presence of 50 nM [(3)H]PGD(2), the patients' platelets bound 7.1+/-2.9 fmol ligand/10(8) platelets compared with 15.1+/-1 fmol/10(8) platelets in normals, a decrease of 53% (P < 0.01). Scatchard analysis showed that the K(d) of [(3)H]PGD(2) binding (33 nM) was comparable to normal platelets, which indicates that the decreased PGD(2) binding in these platelets represented fewer receptors rather than altered affinity of the ligand for the binding site. The 53% decrease in [(3)H]PGD(2) binding correlated with a 48% decrease in PGD(2)-activated platelet adenylate cyclase. The characterization of the platelet PGD(2) binding site provides further direct evidence that there are at least two PG receptors on platelets, one for PGE(1) and PGI(2), and a separate receptor for PGD(2). Direct binding analysis will be a useful tool for studying the role of PG in regulating platelet function, as demonstrated by the selective loss of PGD(2) binding sites in patients with myeloproliferative disorders.
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PMID:Characterization of the platelet prostaglandin D2 receptor. Loss of prostaglandin D2 receptors in platelets of patients with myeloproliferative disorders. 22 13

The rare presence of the ph1 chromosome in chronic myeloproliferative disorders other than chronic granulocytic leukemia (CGL), i.e. polycythemia vera (PV), myeloid metaplasia with myelofibrosis (MMM) and hemorrhagic thrombocytopenia (HT) raised the question whether or not the Ph1 chromosome is peculiar to CGL. In an attempt to answer this question, the authors reports six cases of positive-Ph1 of which two are from their personal experience and four from the literature. Three of these six cases converted to CGL. The authors conclude that the cases of Ph1-positive PV and HT are transition forms to CGL, and the cases of Ph1-positive MMM are in fact secondary forms derived from CGL.
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PMID:Ph1-positive polycythemia vera. 26 77

Forty patients with various types of myeloproliferative disorders were evaluated immunologically. Serum immunoglobulin levels were within the normal range in most patients and no monoclonal gammopathies were detected. Serum C'3 levels were decreased in 19 of 40 (48%) patients. The response of peripheral blood lymphocytes to phytohemagglutinin was decreased in 26 of 40 (65%) and to pokeweed mitogen in 18 of 28 (64%) patients studied. Lymphocytes from patients with polycythemia vera were least affected. Unstimulated lymphocytes from some patients demonstrated markedly increased thymidine uptake activity. Despite the diminished mitogenic response, only 2 of 33 patients (6%) were anergic by intradermal skin testing. There was no association between depressed lymphocyte response and recent chemotherapy except in chronic myelogenous leukemia where 6 of 8 patients were receiving cytotoxic therapy when studied. These observations suggest that most of our patients with myeloproliferative disorders have abnormal cellular responses in vitro, but that delayed hypersensitivity and humoral responses are minimally affected.
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PMID:Immunologic dysfunction in the myeloproliferative disorders. 27 12

Granulocytic colonies grown in culture from marrow and peripheral blood from five patients with Ph1-positive CML and heterozygous at the G-6-PD locus were analyzed for G-6-PD in order to identify CFU-C that do not arise from the CML clone. The patients had both B and A enzymes in normal tissues, but their CML clones typed as B. Whereas about 50% of colonies from normal subjects heterozygous as the G-6-PD locus show type-A G-6-PD and 50% type B, only two of the 1308 colonies from the CML patients had type-A G-6-PD. These data provide little evidence for persistence of normal committed stem cells in CML, a finding in contrast to that made previously in polycythemia vera, another clonal stem cell myeloproliferative disorder.
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PMID:Chronic myelocytic leukemia (CML): failure to detect residual normal committed stem cells in vitro. 28 20

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